Hippocampal CA1 apical neuropil atrophy in mild Alzheimer disease visualized with 7-T MRI

In Alzheimer disease (AD), mounting evidence points to a greater role for synaptic loss than neuronal loss. Supporting this notion, multiple postmortem studies have demonstrated that the hippocampal CA1 apical neuropil is one of the earliest sites of pathology, exhibiting tau aggregates and then atr...

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Published in	Neurology Vol. 75; no. 15; p. 1381
Main Authors	Kerchner, G A, Hess, C P, Hammond-Rosenbluth, K E, Xu, D, Rabinovici, G D, Kelley, D A C, Vigneron, D B, Nelson, S J, Miller, B L
Format	Journal Article
Language	English
Published	United States 12.10.2010
Subjects	Aged Alzheimer Disease - complications Alzheimer Disease - pathology Atrophy - etiology Atrophy - pathology CA1 Region, Hippocampal - pathology Case-Control Studies Female Humans Image Processing, Computer-Assisted Magnetic Resonance Imaging - methods Male Mental Status Schedule Middle Aged Neuropil - pathology Statistics, Nonparametric
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ISSN	1526-632X
DOI	10.1212/WNL.0b013e3181f736a1

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Abstract	In Alzheimer disease (AD), mounting evidence points to a greater role for synaptic loss than neuronal loss. Supporting this notion, multiple postmortem studies have demonstrated that the hippocampal CA1 apical neuropil is one of the earliest sites of pathology, exhibiting tau aggregates and then atrophy before there is substantial loss of the CA1 pyramidal neurons themselves. In this cross-sectional study, we tested whether tissue loss in the CA1 apical neuropil layer can be observed in vivo in patients with mild AD. We performed ultra-high-field 7-T MRI on subjects with mild AD (n = 14) and age-matched normal controls (n = 16). With a 2-dimensional T2*-weighted gradient-recalled echo sequence that was easily tolerated by subjects, we obtained cross-sectional slices of the hippocampus at an in-plane resolution of 195 μm. On images revealing the anatomic landmarks of hippocampal subfields and strata, we observed thinning of the CA1 apical neuropil in subjects with mild AD compared to controls. By contrast, the 2 groups exhibited no difference in the thickness of the CA1 cell body layer or of the entire CA1 subfield. Hippocampal volume, measured on a conventional T1-weighted sequence obtained at 3T, also did not differentiate these patients with mild AD from controls. CA1 apical neuropil atrophy is apparent in patients with mild AD. With its superior spatial resolution, 7-T MRI permits in vivo analysis of a very focal, early site of AD pathology.
AbstractList	In Alzheimer disease (AD), mounting evidence points to a greater role for synaptic loss than neuronal loss. Supporting this notion, multiple postmortem studies have demonstrated that the hippocampal CA1 apical neuropil is one of the earliest sites of pathology, exhibiting tau aggregates and then atrophy before there is substantial loss of the CA1 pyramidal neurons themselves. In this cross-sectional study, we tested whether tissue loss in the CA1 apical neuropil layer can be observed in vivo in patients with mild AD. We performed ultra-high-field 7-T MRI on subjects with mild AD (n = 14) and age-matched normal controls (n = 16). With a 2-dimensional T2*-weighted gradient-recalled echo sequence that was easily tolerated by subjects, we obtained cross-sectional slices of the hippocampus at an in-plane resolution of 195 μm. On images revealing the anatomic landmarks of hippocampal subfields and strata, we observed thinning of the CA1 apical neuropil in subjects with mild AD compared to controls. By contrast, the 2 groups exhibited no difference in the thickness of the CA1 cell body layer or of the entire CA1 subfield. Hippocampal volume, measured on a conventional T1-weighted sequence obtained at 3T, also did not differentiate these patients with mild AD from controls. CA1 apical neuropil atrophy is apparent in patients with mild AD. With its superior spatial resolution, 7-T MRI permits in vivo analysis of a very focal, early site of AD pathology.
Author	Hammond-Rosenbluth, K E Vigneron, D B Miller, B L Kerchner, G A Hess, C P Rabinovici, G D Xu, D Nelson, S J Kelley, D A C
Author_xml	– sequence: 1 givenname: G A surname: Kerchner fullname: Kerchner, G A email: kerchner@stanford.edu organization: Stanford Center for Memory Disorders, Department of Neurology and Neurological Sciences, Stanford University School of Medicine, Stanford, CA 94305-5235, USA. kerchner@stanford.edu – sequence: 2 givenname: C P surname: Hess fullname: Hess, C P – sequence: 3 givenname: K E surname: Hammond-Rosenbluth fullname: Hammond-Rosenbluth, K E – sequence: 4 givenname: D surname: Xu fullname: Xu, D – sequence: 5 givenname: G D surname: Rabinovici fullname: Rabinovici, G D – sequence: 6 givenname: D A C surname: Kelley fullname: Kelley, D A C – sequence: 7 givenname: D B surname: Vigneron fullname: Vigneron, D B – sequence: 8 givenname: S J surname: Nelson fullname: Nelson, S J – sequence: 9 givenname: B L surname: Miller fullname: Miller, B L
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Snippet	In Alzheimer disease (AD), mounting evidence points to a greater role for synaptic loss than neuronal loss. Supporting this notion, multiple postmortem studies...
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SubjectTerms	Aged Alzheimer Disease - complications Alzheimer Disease - pathology Atrophy - etiology Atrophy - pathology CA1 Region, Hippocampal - pathology Case-Control Studies Female Humans Image Processing, Computer-Assisted Magnetic Resonance Imaging - methods Male Mental Status Schedule Middle Aged Neuropil - pathology Statistics, Nonparametric
Title	Hippocampal CA1 apical neuropil atrophy in mild Alzheimer disease visualized with 7-T MRI
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